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== Main features== | == Main features== | ||
| − | * | + | * Nodal description of the considered network. |
| + | * Non linear Onsager type coupling between forces & fluxes. | ||
| + | * Steady, pseudo-unsteady & unsteady computations. | ||
| + | * Handle local to global scales (i.e. from coarse-grain to fine tuning). | ||
| + | * Possibly complex non-homogeneous structures and topologies. | ||
| + | * Possibly anisotropic, discontinuous coupling coefficients; potentials and time dependence can also be included. | ||
| + | * Allows for lighter/heavier computations and technological “optimization” ! | ||
== Sample Results == | == Sample Results == | ||
Revision as of 12:45, 1 April 2016
The DYCO Solvers suite
DYCO is a suite of solvers able to compute high accuracy solutions to non-linear stock/flow potentials coupled equations, based on a nodal approach strategy.
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Main features
- Nodal description of the considered network.
- Non linear Onsager type coupling between forces & fluxes.
- Steady, pseudo-unsteady & unsteady computations.
- Handle local to global scales (i.e. from coarse-grain to fine tuning).
- Possibly complex non-homogeneous structures and topologies.
- Possibly anisotropic, discontinuous coupling coefficients; potentials and time dependence can also be included.
- Allows for lighter/heavier computations and technological “optimization” !
Sample Results
We show below a short gallery of pictures obtained using the DYCO solver, in the thermo-electric context.
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In both cases, BC are Homogeneous Neumann and/or Non-Homogeneous Dirichlet. Each elementary cell is of the non-ideal (non-linear) type.
Sub-modules
A sub-module of DYCO shall be devoted to the numerical solution of coupled stock/flow potential in the ecological economics and biological contexts.
Participants
Yves D'Angelo, Christophe Goupil, Eric Herbert, Xanthippi Zianni, Louise Meteir, Aurélie Louis-Napoléon.